A Solar Assistant Dehumidifier Based on Porous Metal-Organic Framework
As an important factor to measure environmental comfort, humidity control is very important. However, previous dehumidification methods have many defects, such as condensation and adsorbents, which often require a lot of energy. The growing requirements of an indoor environment can stem from the dev...
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| Published in | Key engineering materials Vol. 896; pp. 13 - 20 |
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| Main Author | |
| Format | Journal Article |
| Language | English |
| Published |
Zurich
Trans Tech Publications Ltd
10.08.2021
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| Abstract | As an important factor to measure environmental comfort, humidity control is very important. However, previous dehumidification methods have many defects, such as condensation and adsorbents, which often require a lot of energy. The growing requirements of an indoor environment can stem from the development of living levels and technology. Humidity, as an important factor to measure environmental comfort, affects living and production, and indoor humidity control is an indispensable part of modern architecture. However, there are many defects in the previous dehumidification methods, such as condensation dehumidification, which often requires a lot of energy. Traditional adsorbents (such as zeolite silica and activated alumina) have problems with fragile structures or high regeneration temperatures. In this paper, an indoor dehumidification device based on the porous metal-organic framework {MOF-801, Zr6O4(OH)4(Fumarate)6}, can realize the indoor dehumidification process only by using a small amount of solar energy (1 kilowatt per square meter). The device is expected to remove 0.2113 kg/h of moisture per square meter MOF-801, only needs a few additional energy inputs. |
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| AbstractList | As an important factor to measure environmental comfort, humidity control is very important. However, previous dehumidification methods have many defects, such as condensation and adsorbents, which often require a lot of energy. The growing requirements of an indoor environment can stem from the development of living levels and technology. Humidity, as an important factor to measure environmental comfort, affects living and production, and indoor humidity control is an indispensable part of modern architecture. However, there are many defects in the previous dehumidification methods, such as condensation dehumidification, which often requires a lot of energy. Traditional adsorbents (such as zeolite silica and activated alumina) have problems with fragile structures or high regeneration temperatures. In this paper, an indoor dehumidification device based on the porous metal-organic framework {MOF-801, Zr6O4(OH)4(Fumarate)6}, can realize the indoor dehumidification process only by using a small amount of solar energy (1 kilowatt per square meter). The device is expected to remove 0.2113 kg/h of moisture per square meter MOF-801, only needs a few additional energy inputs. As an important factor to measure environmental comfort, humidity control is very important. However, previous dehumidification methods have many defects, such as condensation and adsorbents, which often require a lot of energy. The growing requirements of an indoor environment can stem from the development of living levels and technology. Humidity, as an important factor to measure environmental comfort, affects living and production, and indoor humidity control is an indispensable part of modern architecture. However, there are many defects in the previous dehumidification methods, such as condensation dehumidification, which often requires a lot of energy. Traditional adsorbents (such as zeolite silica and activated alumina) have problems with fragile structures or high regeneration temperatures. In this paper, an indoor dehumidification device based on the porous metal-organic framework {MOF-801, Zr 6 O4(OH) 4 (Fumarate) 6 }, can realize the indoor dehumidification process only by using a small amount of solar energy (1 kilowatt per square meter). The device is expected to remove 0.2113 kg/h of moisture per square meter MOF-801, only needs a few additional energy inputs. |
| Author | Wen, Xiao Yu |
| Author_xml | – givenname: Xiao Yu surname: Wen fullname: Wen, Xiao Yu email: wenxiaoyu640180@163.com organization: Taiyuan University of Technology : College of Civil Engineering |
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| Cites_doi | 10.1021/cr300014x 10.1021/ja500330a 10.1177/146642407209200337 10.1126/science.aam8743 10.1016/j.buildenv.2008.04.001 |
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| Copyright | 2021 Trans Tech Publications Ltd Copyright Trans Tech Publications Ltd. 2021 |
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| Keywords | Solar Energy Building Environment Metal-Organic Frameworks Adsorption Dehumidification |
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| Notes | Selected, peer-reviewed papers from the 6th International Conference on Building Materials and Construction (ICBMC 2021), Nanotechnology and Nanomaterials in Energy (ICNNE 2021), and Energy Engineering and Smart Materials (ICEESM 2021), April 28-30, 2021, Online |
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| References | 4403352 4403353 Kim (4403354); 356 Wan (4457464); 44 4403359 4457462 4457463 Shaw (4403355) 2016; 92 4403356 4403357 |
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| SubjectTerms | Adsorbents Condensates Defects Dehumidification Humidity Indoor environments Metal-organic frameworks Moisture control Solar energy |
| Title | A Solar Assistant Dehumidifier Based on Porous Metal-Organic Framework |
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